A chip package includes a first die, a second die, a molding material, and a redistribution layer. The first die includes a first conductive pad. The second die is disposed on the first die and includes a second conductive pad. The molding material covers the first die and the second die. The molding material includes a top portion, a bottom portion, and an inclined portion adjoins the top portion and the bottom portion. The top portion is located on the second die, and the bottom portion is located on the first die. The redistribution layer is disposed along the top portion, the inclined portion, and the bottom portion. The redistribution layer is electrically connected to the first conductive pad and the second conductive pad.

A fabric-based item may include fabric such as woven fabric having insulating and conductive yarns or other strands of material. The conductive yarns may form signal paths. Electrical components can be embedded within pockets in the fabric. Each electrical component may have an electrical device such as a semiconductor die that is mounted on an interposer substrate. The electrical device may be a light-emitting diode, a sensor, an actuator, or other electrical device. The electrical device may have contacts that are soldered to contacts on the interposer. The interposer may have additional contacts that are soldered to the signal paths. The fabric may have portions that form transparent windows overlapping the electrical components or that have other desired attributes.

A semiconductor device package includes a carrier, a semiconductor device, a lid, a conductive post, a first patterned conductive layer, a conductive element disposed between the first conductive post and the first patterned conductive layer, and an adhesive layer disposed between the lid and the carrier. The conductive post is electrically connected to the first patterned conductive layer. The semiconductor device is electrically connected to the first patterned conductive layer. The lid is disposed on the carrier, and the lid includes a second patterned conductive layer electrically connected to the first conductive post.

A MEMS device may include: (i) a lower cavity, including a first island, formed within a first layer of the MEMS device; (ii) an upper cavity, including a second island, formed within a second layer of the MEMS device; (iii) a MEMS resonating element arranged in a device layer of the MEMS device and anchored via the first and second islands; (iv) a first set of electrodes for electrostatic actuation and sensing of the MEMS resonating element in an in-plane mode that is arranged in the device layer of the MEMS device; and (v) a second set of electrodes for electrostatic actuation and sensing of the MEMS resonating element in an out-of-plane mode that is electrically isolated from the first set of electrodes and located in the first or second layer of the MEMS device, and wherein the out-of-plane mode is a torsional mode or a saddle mode.

An inertial sensor includes a substrate, a first detection element that is provided on a first surface of the substrate and includes a first movable portion displaceable with respect to the substrate and a first fixed portion connected to the first movable portion and fixed to the substrate, and a second detection element that is provided on a second surface in a front-back relationship with the first surface and includes a second movable portion displaceable with respect to the substrate and a second fixed portion connected to the second movable portion and fixed to the substrate.

The present utility model discloses a package assembly of a sensor, comprising: a redistribution layer having a first face and a second face that are opposite to each other, and a first via that penetrates the first face and the second face; a first die electrically connected to the first face of the redistribution layer; a sensing element electrically connected to the first face of the redistribution layer; a cover body located between the redistribution layer and the sensing element, wherein the cover body has a second via that penetrates the cover body, and the second via communicates with the first via; and a moulding compound comprising a third face and a fourth face that are opposite to each other, wherein the moulding compound encapsulates the first die and the sensing element on the side of the first face of the redistribution layer, and the third face of the moulding compound is combined with the first face of the redistribution layer. The package assembly of the sensor allows more components to be packaged together, provides a better structural support and heat distribution, and reduces the volume and costs of the package assembly.

A sensor device includes a first and second Micro-Electro-Mechanical (MEM) structures. The first MEM structure includes a first heating element on a first layer of the first MEM structure. The first heating element includes an input adapted to receive an input signal. The first MEM structure also includes a first temperature sensing element on a second layer of the first MEM structure. The second MEM structure includes a second heating element on a first layer of the second MEM structure and a second temperature sensing element on a second layer of the second MEM structure. An output circuit has a first input coupled to the first temperature sensing element and a second input coupled to the second temperature sensing element.

The present invention discloses a package assembly of a sensor, comprising: a redistribution layer comprising a first face and a second face opposite to each other; a first die electrically connected to the first face of the redistribution layer; a molding compound comprising a third face and a fourth face opposite to each other, wherein the third face of the molding compound is combined with the first face of the redistribution layer, and the molding compound encapsulates the first die on the side of the first face of the redistribution layer; and a sensing element electrically connected to the redistribution layer. The package assembly of the sensor allows more elements to be packaged together, and provides a better structural support or provides a better heat distribution for the package assembly, and at the same time, reduces the volume and costs of the entire package assembly.

A semiconductor package includes a first die having a first surface, a first conductive bump over the first surface and having first height and a first width, a second conductive bump over the first surface and having a second height and a second width. The first width is greater than the second width and the first height is substantially identical to the second height. A method for manufacturing the semiconductor package is also provided.

A semiconductor device package includes a carrier, a semiconductor device, a lid, a conductive post, a first patterned conductive layer, a conductive element disposed between the first conductive post and the first patterned conductive layer, and an adhesive layer disposed between the lid and the carrier. The conductive post is electrically connected to the first patterned conductive layer. The semiconductor device is electrically connected to the first patterned conductive layer. The lid is disposed on the carrier, and the lid includes a second patterned conductive layer electrically connected to the first conductive post.